1 期                   李文升，等：豹纹鳃棘鲈工厂化室内繁育及早期生长发育特征                                        50 卷

              性和规律，填补了豹纹鳃棘鲈在工厂化室内自然                                 tome analyses in leopard coral grouper (Plectropomus leopar-
              产卵和育苗的研究空白，为今后的规模化人工繁                                 dus)[J]. Aquaculture, 2023, 574: 739677.
              殖和苗种批量化生产打下良好基础，对于推动豹                           [10]   高进, 刘金叶, 陈傅晓, 等. 豹纹鳃棘鲈生长差异分化相关
              纹鳃棘鲈等名贵石斑鱼的工厂化养殖和产业发展                                 lncRNA  与  mRNA  加权基因共表达网络分析  [J]. 渔业科学
              具有重要意义和推广价值。                                          进展, 2025, 46(1): 46-58.
                                                                    Gao J, Liu J Y, Chen F X, et al. Weighted gene co-expression
              （作者声明本文无利益冲突）                                         network of growth differentiation-related lncRNAs and mRNAs
                                                                    in  Plectropomus  leopardus[J].  Progress  in  Fishery  Sciences,
              参考文献     (References)：                                2025, 46(1): 46-58 (in Chinese).

              [  1  ]   Lou D C, Mapstone B D, Russ G R, et al. Using otolith weight-  [11]   Fei F, Cao S Q, Li W S, et al. Effects of spectral on growth,
                    age relationships to predict age based metrics of coral reef fish  physiology, and growth axis gene expression in Plectropomus
                    populations  across  different  temporal  scales[J].  Fisheries  leopardus[J]. Aquaculture, 2024, 593: 741290.
                    Research, 2007, 83(2-3): 216-227.         [12]   赵宁宁, 周邦维, 李勇, 等. 环境光色对工业化养殖豹纹鳃棘
              [  2  ]   Zhu Z Y, Yue G H. The complete mitochondrial genome of red  鲈幼鱼生长、肤色及生理指标的影响  [J]. 中国水产科学,
                    grouper Plectropomus leopardus and its applications in identi-  2016, 23(4): 976-984.
                    fication of grouper species[J]. Aquaculture, 2008, 276(1-4): 44-  Zhao  N  N,  Zhou  B  W,  Li  Y,  et  al.  Effects  of  light  color  on
                    49.                                             growth, skin color, and physiological indices of juvenile Plec-
              [  3  ]   Adams S. Morphological ontogeny of the gonad of three plec-  tropomus  leopardus  in  a  recirculating  aquaculture  system[J].
                    tropomid  species  through  sex  differentiation  and  transition[J].  Journal of Fishery Sciences of China, 2016, 23(4): 976-984 (in
                    Journal of Fish Biology, 2003, 63(1): 22-36.    Chinese).
              [  4  ]   Frisch  A,  Anderson  T.  Physiological  stress  responses  of  two  [13]   周可欣, 文鑫, 邓成, 等. 豹纹鳃棘鲈体色变异的色素细胞差
                    species  of  coral  trout  (Plectropomus  leopardus  and  Plectro-  异分析  [J]. 水生生物学报, 2021, 45(5): 1164-1170.
                    pomus   maculatus)[J].   Comparative   Biochemistry   and  Zhou K X, Wen X, Deng C, et al. Analysis of pigment cells dif-
                    Physiology-Part A: Molecular & Integrative Physiology, 2005,  ference in body color variation of Plectropomus leopardus[J].
                    140(3): 317-327.                                Acta  Hydrobiologica  Sinica,  2021,  45(5):  1164-1170  (in
              [  5  ]   Frisch  A  J,  McCormick  M  I,  Pankhurst  N  W.  Reproductive  Chinese).
                    periodicity  and  steroid  hormone  profiles  in  the  sex-changing  [14]   肖婕, 王梦娅, 吴绍轩, 等. 豹纹鳃棘鲈酪氨酸酶  Tyr 基因家
                    coral-reef fish, Plectropomus leopardus[J]. Coral Reefs, 2007,  族的结构特征及组织表达分析  [J]. 中国水产科学, 2022,
                    26(1): 189-197.                                 29(5): 653-664.
              [  6  ]   Leis J M, Carson-Ewart B M. In situ swimming and settlement  Xiao J, Wang M Y, Wu S X, et al. Bioinformatics and expres-
                    behaviour of larvae of an Indo-Pacific coral-reef fish, the coral  sion analysis of tyrosinase protein family genes in leopard coral
                    trout  Plectropomus  leopardus  (Pisces:  Serranidae)[J].  Marine  grouper[J]. Journal of Fishery Sciences of China, 2022, 29(5):
                    Biology, 1999, 134(1): 51-64.                   653-664 (in Chinese).
              [  7  ]   Yoseda  K,  Yamamoto  K,  Asami  K,  et  al.  Influence  of  light  [15]   Wen X, Tang H Z, Zhou M L, et al. Genome-wide association
                    intensity on feeding, growth, and early survival of leopard coral  study of red skin color in leopard coral grouper (Plectropomus
                    grouper (Plectropomus leopardus) larvae under mass-scale rear-  leopardus)  based  on  genome  resequencing[J].  Aquaculture,
                    ing conditions[J]. Aquaculture, 2008, 279(1-4): 55-62.  2023, 563: 739014.
              [  8  ]   高进, 王永波, 刘金叶, 等. 豹纹鳃棘鲈差异流速下肝脏转录       [16]   Jin  C  F,  Wang  M  Y,  Gao  X,  et  al.  Deciphering  scavenger
                    组分析  [J]. 南方水产科学, 2022, 18(1): 107-117.         receptors reveals key regulators in the intestine that function in
                    Gao  J,  Wang  Y  B,  Liu  J  Y,  et  al.  Transcriptome  analysis  of  carotenoid coloration of leopard coral groupers (Plectropomus
                    Plectropomus leopardus liver under different flow velocity[J].  leopardus)[J]. International Journal of Biological Macromolec-
                    South  China  Fisheries  Science,  2022,  18(1):  107-117  (in  ules, 2024, 260: 129387.
                    Chinese).                                 [17]   Sun Z B, Liu S Y, Wang X A, et al. The research of nicotinam-
              [  9  ]   Wang  T,  Wu  X,  Song  L  L,  et  al.  Identification  of  candidate  ide  and  β-arbutin  on  reducing  melanin  content  in  the  skin  of
                    growth-related SNPs  and  genes  using  GWAS  and   transcrip-  leopard  coral  grouper  (Plectropomus  leopardus)[J].  Aquacul-

              中国水产学会主办  sponsored by China Society of Fisheries                          https://www.china-fishery.cn
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